Sensorless vector control of SVPWM inverter fed induction machine using MRAS-sliding mode

Sensorless vector control of SVPWM inverter fed induction machine using MRAS-sliding mode

One of the most important technologies for electric vehicles is the drive control technology which does not require a position or speed sensor. In a sensorless vector controlled induction machine, the speed must be estimated from the system measurements. Model Reference Adaptive System (MRAS) based...

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Bibliographic Details
Published in:2012 International Conference on Green Technologies (ICGT) pp. 029 - 036
Main Authors: Nisha, G. K., Lakaparampil, Z. V., Ushakumari, S.
Format: Conference Proceeding
Language:English
Published: IEEE 01-12-2012
Subjects:
Adaptation models
Computational modeling
Induction machine
Mathematical model
Model reference adaptive system
Observers
Rotors
Sliding mode observer
Stators
Vector control
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Summary:One of the most important technologies for electric vehicles is the drive control technology which does not require a position or speed sensor. In a sensorless vector controlled induction machine, the speed must be estimated from the system measurements. Model Reference Adaptive System (MRAS) based techniques are one of the best methods to estimate the rotor speed due to its performances and straight forward stability approach. The performance of the traditional rotor flux MRAS with PI controller deteriorates due to integrator drift and sensitivity to current measurement noise. Practically, system tuning is difficult and may yield under damped responses. In this paper, a new robust MRAS scheme based on sliding mode technique to estimate the rotor speed of a sensorless vector controlled induction machine is proposed. Further, a space vector pulse width modulated (SVPWM) voltage source inverter is used to feed the induction machine rather than the traditional sinusoidal PWM inverter for the simulation. The drive system with the proposed adaptive mechanism is simulated by MATLAB/Simulink to verify the principles of the technique and compared its performance with that of PI controller.
ISBN:1467326356
9781467326353
DOI:10.1109/ICGT.2012.6477943